Nuclear Many-body Physics: Dynamics Of Mean Field And Clustering
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A01=Hisashi Horiuchi
A01=Kiyomi Ikeda
A01=Kiyoshi Kato
A01=Toshio Motoba
Ab Initio Calculation
Alpha Cluster
Alpha Condensation
Alpha Decay
Alpha Gas-Like States
Angular Momentum Projection
Antisymmetric Molecular Dynamics (AMD)
Author_Hisashi Horiuchi
Author_Kiyomi Ikeda
Author_Kiyoshi Kato
Author_Toshio Motoba
Beta Decay
Brink Model
Category=PHM
Category=PHN
Channel Coupling
Cluster Dynamics
Cluster Model
Cluster Structure
Cluster-Gas-Like States
Cluster-nucleosynthesis
Clustering in Neutron-Rich Nuclei
Complex Energy State
Complex Scaling Method
Configuration Mixing
Deformed Mean Field
Deformed Nucleus
Differential Cross Section
Doorway State
Duality of Ground State of Shell and Cluster Structures
DWBA
DWIA
E1 Giant Resonance
Electromagnetic Transitions
eq_bestseller
eq_isMigrated=1
eq_nobargain
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Exchange Forces
Fermi Gas Model
Folding Potential
forthcoming
G-Matrix
Gamow States
Generator Coordinate Method (GCM)
Giant Resonances
Halo Nuclei
Hoyle State
Hypernuclear Chart
Hypernucleus
Hyperons
Ikeda Diagram
Independent Particle Model
Inversion Doublet
Isobaric Analog State
Isospin
Magic Numbers
Magnetic Moment
Many-Body Resonances
Mass Formula
Microscopic Cluster Model
Molecular Orbit
Molecular Resonance
Neutron Halo
Neutron-Drip Line
Neutron-Rich Nucleus
Nuclear Astrophysics
Nuclear Chart
Nuclear Fission
Nuclear Forces
Nuclear Fusion
Nuclear Matter
Nuclear Mean Field
Nucleosynthesis
Orthogonality Condition Model (OCM)
Parity Doublet
Partial Widths
Pauli Principle
Quasiparticle
R-Matrix Theory
R-Process
Resonating Group Method (RGM)
RI beam
Rotational Motion
S-matrix
S-Process
Saturation Property
Shell Model
Shell Structure
Spatial Localization
Spherical Tensors
Spin-Orbit Interaction
Strange Particles
Strangeness
Strength Function
Strong Interaction
Tensor Interaction
Three-Body Force
Three-Body Resonances
Threshold Energy Rule
THSR Wave Function
Transmission Coefficient
Unstable Nucleus
Weak Decay
Woods-Saxon Potential
Product details
- ISBN 9789811287800
- Publication Date: 29 Jul 2026
- Publisher: World Scientific Publishing Co Pte Ltd
- Publication City/Country: SG
- Product Form: Hardback
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The atomic nuclei are unique quantum many-body systems that consist of not only protons and neutrons but also hyperons. Hadrons of a finite number interact through strong interaction which is short ranged, having various exchange characters and spin-orbit and tensor forces. The nucleus shows various facets such as independent-particle phenomena, cluster structures, resonance phenomena and collective motions, depending on the excitation energy and the nucleon number combinations. The studies of their proper dynamics, change of structures, nuclear reactions, and interplays of different aspects have been of great interest. Moreover, in recent years, the experimental and theoretical research fields of nuclear physics are progressing and expanding to cover rich many-body dynamics under extreme conditions such as high-lying nuclear states, very neutron-rich nuclei, hypernuclear systems, and astrophysical objects.In order to meet the requirements of graduate and undergraduate students, including young researches, the book describes not only the basic aspects of nuclear physics, but also instructive and detailed contents of several research areas which emphasize the timely studies of the discipline.
